let M1, M2 be Matrix of n,m,K; :: thesis: ( len M1 = len M & ( for i, j being Nat st i in dom M & j in Seg (width M) holds
( ( j = l implies M1 * (i,j) = a * (M * (i,l)) ) & ( j <> l implies M1 * (i,j) = M * (i,j) ) ) ) & len M2 = len M & ( for i, j being Nat st i in dom M & j in Seg (width M) holds
( ( j = l implies M2 * (i,j) = a * (M * (i,l)) ) & ( j <> l implies M2 * (i,j) = M * (i,j) ) ) ) implies M1 = M2 )
assume that
len M1 = len M and
A20: for i, j being Nat st i in dom M & j in Seg (width M) holds
( ( j = l implies M1 * (i,j) = a * (M * (i,l)) ) & ( j <> l implies M1 * (i,j) = M * (i,j) ) ) and
len M2 = len M and
A21: for i, j being Nat st i in dom M & j in Seg (width M) holds
( ( j = l implies M2 * (i,j) = a * (M * (i,l)) ) & ( j <> l implies M2 * (i,j) = M * (i,j) ) ) ; :: thesis: M1 = M2
for i, j being Nat st [i,j] in Indices M1 holds
M1 * (i,j) = M2 * (i,j)
proof
A22: Indices M = Indices M1 by MATRIX_0:26;
let i, j be Nat; :: thesis: ( [i,j] in Indices M1 implies M1 * (i,j) = M2 * (i,j) )
assume [i,j] in Indices M1 ; :: thesis: M1 * (i,j) = M2 * (i,j)
then A23: ( i in dom M & j in Seg (width M) ) by A22, ZFMISC_1:87;
then A24: ( j <> l implies M1 * (i,j) = M * (i,j) ) by A20;
( j = l implies M1 * (i,j) = a * (M * (i,l)) ) by A20, A23;
hence M1 * (i,j) = M2 * (i,j) by A21, A23, A24; :: thesis: verum
end;
hence M1 = M2 by MATRIX_0:27; :: thesis: verum